Magneto-resistive (MR) transducer having an electrostatic discharge (ESD) element and separation structure in contact with magnetic media

1. A magneto-resistive (MR) transducer for reading data signals magnetically recorded on tape, the transducer comprising: a MR sensor having a front edge; a separation structure including at least one film formed of at least one of non-magnetic or ferromagnetic materials, the separation structure is configured to contact the tape and is formed on the front edge of the MR sensor to isolate the MR sensor from contact with the tape; and an electro-static discharge (ESD) element coupled to at least one of the separation structure and the MR sensor and configured to contact the tape, the ESD element being further configured to provide an electrical path to a lower potential structure.

2. A transducer of claim 1 , wherein the ESD element forms a serpentine resistive structure.

3. The transducer of claim 1 wherein the at least one film includes an isolation film and an underlying film and wherein the isolation film is positioned between the tape and the underlying film, and the underlying film is positioned between the isolation film and the MR sensor to isolate the MR sensor from contacting the isolation film.

4. The transducer of claim 3 wherein the isolation film is formed of at least one of chromium (Cr) and tantalum (Ta).

5. The transducer of claim 3 wherein the underlying film is formed of at least one of an alloy of cobalt, zirconium, and molybdenum (CoZrMo), an alloy of nickel, iron and molybdenum (NiFeMo), and an alloy of nickel, iron, and chromium (NiFeCr).

6. The transducer of claim 1 further comprising at least one permanent magnet (PM) film positioned about the MR sensor and configured to contact the tape to stabilize performance of the MR sensor.

7. A magneto-resistive (MR) transducer for reading data signals from a magnetic tape, the transducer comprising: an MR sensor; a separation structure formed about the MR sensor for contacting the tape and separating the MR sensor from the tape, and an electro-static discharge (ESD) element for contacting the MR sensor, the separation structure, and the tape and for dissipating electrical charges from the tape.

8. The transducer of claim 7 further comprising an insulator for contacting the MR sensor and the tape.

9. The transducer of claim 8 wherein the insulator is formed of an alumina gap material.

10. The transducer of claim 7 wherein the separation structure includes an isolation film and an underlying film and wherein the isolation film is positioned between the tape and the underlying film, and the underlying film is positioned between the isolation film and the MR sensor to isolate the MR sensor from contacting the isolation film.

11. The transducer of claim 10 wherein the isolation film is formed of at least one of chromium (Cr) and tantalum (Ta).

12. The transducer of claim 10 wherein the underlying film is formed of at least one of an alloy of cobalt, zirconium, and molybdenum (CoZrMo), an alloy of nickel, iron and molybdenum (NiFeMo), and an alloy of nickel, iron, and chromium (NiFeCr).

13. The transducer of claim 7 further comprising at least one permanent magnet (PM) film positioned about the MR sensor and configured to contact the tape to stabilize performance of the MR sensor.

14. A magneto-resistive (MR) transducer for reading data signals from a magnetic tape, the transducer comprising: an MR sensor; an electro-static discharge (ESD) element configured to contact the MR sensor and the tape and to dissipate electrical charges from the tape; and at least one permanent magnet (PM) film positioned about the MR sensor and the ESD element and configured to contact the tape and to stabilize performance of the MR sensor.

15. The transducer of claim 14 further comprising a separation structure formed about the MR sensor and configured to contact the tape and to separate the MR sensor from the tape.

16. The transducer of claim 15 wherein the separation structure includes an isolation film and an underlying film and wherein the isolation film is positioned between the tape and the underlying film, and the underlying film is positioned between the isolation film and the MR sensor to isolate the MR sensor from contacting the isolation film.

17. The transducer of claim 16 wherein the isolation film is formed of at least one of chromium (Cr) and tantalum (Ta).

18. The transducer of claim 16 wherein the underlying film is formed of at least one of an alloy of cobalt, zirconium, and molybdenm (CoZrMo), an alloy of nickel, iron and molybdenum (NiFeMo), and an alloy of nickel, iron, and chromium (NiFeCr).